We present results on the retrieval of skin optical properties obtained by fitting of measurements of the diffuse reflectance of human skin. Reflectance spectra are simulated using an analytical model based on the diffusion approximation. This model is implemented in a simplex fit routine. The skin optical model used consists of five layers representing epidermis, capillary blood plexus, dermis, deep blood plexus and hypodermis. The optical properties of each layer are assumed homogeneously distributed. The main optical absorbers included are melanin in epidermis and blood. The experimental setup consists of a HP photospectrometer equipped with a remote fiber head. Total reflectance spectra were measured in the 400 - 820 nm wavelength range on the volar underarm of 19 volunteers under various conditions influencing the blood content and oxygenation degree. Changes in the reflectance spectra were observed. Using the fit routine changes in blood content in the capillary blood plexus and in the deep blood plexus could be quantified. These showed different influences on the total reflectance. The method can be helpful to quantitatively assess changes in skin color appearance such as occurs in the treatment of port wine stains, blanching, skin irritation and tanning.
[1]
P. Butler,et al.
Modelling the distribution of laser light in port-wine stains with the Monte Carlo method.
,
1995,
Physics in medicine and biology.
[2]
W Verkruysse,et al.
Light distributions in a port wine stain model containing multiple cylindrical and curved blood vessels
,
1996,
Lasers in surgery and medicine.
[3]
J. Joseph,et al.
The delta-Eddington approximation for radiative flux transfer
,
1976
.
[4]
M. Keijzer,et al.
Light Transport for Medical Laser Treatments
,
1993
.
[5]
M. Boffa,et al.
Laser treatment of Port-wine stains
,
2001
.