Saratov JOURNAL of Medical and Scientific Research

University of Otago, New Zealand

The evaluation of blood fow in the face skin by LDF method

Year: 2012, volume 8 Issue: №2 Pages: 615-621
Heading: Skin Diseases Article type: Original article
Authors: Davydova A.V., Morrison A.V., Utz S.R., Meglinski I.V., Lychagov V.V.
Organization: Saratov State Medical University, Saratov state university, University of Otago, New Zealand
Summary:

Aims. The research aimed the studying and optimizing of the possibility of measuring microcirculatory of blood fow in human skin by laser Doppler fowmetry (LDF) against the various topographic features of the peripheral blood supply of tissues. Materials and methods. 20 people of the age from 20 to 56 years without signs of skin lesions were examined by the LDF device. The LDF device has two radiation sources in the red light at a wavelength range of 650±30 nm and the near — infrared at a wavelength of 805±50 nm. The radiation was carried out with four receiving fbers arranged at distances of 1, 2, 3 and 4 mm from the illuminating fber. The state of microvasculature was studied at four points of skin — in the middle of the forehead, in the center of the right cheek and the symmetric point on the left cheek and chin area. We calculated the average values of microcirculation, its standard deviation and coeffcient of variation. Conclusions. By varying the distance from the illuminating fber to the receiving fber and the wavelength of incident light the values of the microcirculation in the different areas of healthy skin were estimated by laser Doppler fowmetry method (LDF). Tissue probes, the spatial localization of the LDF signal in the tissues and the effective depth of detection have been estimated by Monte Carlo method. It has been found out during the study that the LDF signal changes are directly related to the structural features of the structure of the microvasculature, the depth and density of functioning capillaries. The given method can be used to diagnose the state of biological object in the normal and pathological conditions, as well as evaluating the effectiveness of the treatment of various dermatoses.

AttachmentSize
201202_615-621.pdf1.2 MB

The evaluation of blood fow in the face skin by LDF method

Year: 2012, volume 8 Issue: №2 Pages: 615-621
Heading: Skin Diseases Article type: Original article
Authors: Davydova A.V., Morrison A.V., Utz S.R., Meglinski I.V., Lychagov V.V.
Organization: Saratov State Medical University, Saratov state university, University of Otago, New Zealand
Summary:

Aims. The research aimed the studying and optimizing of the possibility of measuring microcirculatory of blood fow in human skin by laser Doppler fowmetry (LDF) against the various topographic features of the peripheral blood supply of tissues. Materials and methods. 20 people of the age from 20 to 56 years without signs of skin lesions were examined by the LDF device. The LDF device has two radiation sources in the red light at a wavelength range of 650±30 nm and the near — infrared at a wavelength of 805±50 nm. The radiation was carried out with four receiving fbers arranged at distances of 1, 2, 3 and 4 mm from the illuminating fber. The state of microvasculature was studied at four points of skin — in the middle of the forehead, in the center of the right cheek and the symmetric point on the left cheek and chin area. We calculated the average values of microcirculation, its standard deviation and coeffcient of variation. Conclusions. By varying the distance from the illuminating fber to the receiving fber and the wavelength of incident light the values of the microcirculation in the different areas of healthy skin were estimated by laser Doppler fowmetry method (LDF). Tissue probes, the spatial localization of the LDF signal in the tissues and the effective depth of detection have been estimated by Monte Carlo method. It has been found out during the study that the LDF signal changes are directly related to the structural features of the structure of the microvasculature, the depth and density of functioning capillaries. The given method can be used to diagnose the state of biological object in the normal and pathological conditions, as well as evaluating the effectiveness of the treatment of various dermatoses.

AttachmentSize
201202_615-621.pdf1.2 MB