RU98114486A

RU98114486A - ATRAUMATIC BLOOD ANALYZER

Info

Publication number: RU98114486A
Application number: RU98114486/14A
Authority: RU
Inventors: Исихара Кен; Асано Каору; Коути Ясухиро; Кусузава Хидео
Original assignee: Тоа Медикал Электроникс Ко., Лтд.; Исихара Кен
Priority date: 1995-12-27
Filing date: 1996-12-27
Publication date: 2000-06-10

Claims

1. Atraumatic blood analyzer, which includes a light source for illuminating part of the tissues of a living organism, including a blood vessel, an image receiving unit for receiving an image of an illuminated blood vessel and tissues, and an analytical unit for analyzing the received image, characterized in that the analytical unit includes an extraction unit for image extraction with a density distribution over the blood vessel in the received image in the form of a density profile of the invention, a quantitative analysis unit from for quantitative presentation of the topological characteristics of the image density profile, a computing unit for calculating the amount of the blood component based on the quantitative characteristics, and an output unit for deriving the calculated amount.

2. The atraumatic blood analyzer according to claim 1, characterized in that the amount of the constituent blood component is at least one concentration of hemoglobin and hematocrit.

3. The non-invasive blood analyzer according to claim 1, characterized in that the light source includes a light emitting device that is adapted to selectively emit light rays of the first and second wavelengths that are equally suitable for oxidized and reduced hemoglobins.

4. Atraumatic blood analyzer according to claim 1, characterized in that the extracting unit examines the area in the image where the image of the blood vessel is in the greatest contrast, and extracts the image density profile for the thus found area.

5. Atraumatic blood analyzer according to claim 1, characterized in that the quantitative analysis unit normalizes the image density profile and calculates the maximum value of h and the distribution width w corresponding to the diameter of the blood vessel in the normalized image density profile.

6. Atraumatic blood analyzer according to claim 5, characterized in that the light source includes a light emitting device that is adapted to selectively emit light rays of the first and second wavelengths, and the quantitative analysis unit calculates the maximum values of h1 and h2 and the width of the distributions w1 and w2 of the first and second profiles, respectively, obtained by receiving images of the same part of body tissues at the first and second wavelengths, and the computing unit calculates the concentration of hemoglobin and hematocrit based on e calculated maximum values h1 and h2 and the width w1 and w2 distributions.

7. The noninvasive blood analyzer according to claim 6, characterized in that the quantitative analysis unit estimates the depth L at which the blood vessel is located based on the widths of the distributions w1 and w2 of the first and second image density profiles obtained when receiving images of the same part body tissues at the first and second wavelengths, and adjusts the maximum values of h1 and h2 based on the depth L.

8. The non-invasive blood analyzer according to claim 2, characterized in that the image pickup unit includes an objective lens, a focusing lens, a spatial filter located between the lenses and having two-dimensionally changing transmittances, and a device controlling the filter for two-dimensionally changing the transmittance spatial filter.

9. The non-invasive blood analyzer of claim 8, wherein the image pickup unit further includes an adjusting device for adjusting the position of the focal point of the objective lens with respect to the blood vessel.

10. Atraumatic blood analyzer according to claim 9, characterized in that the quantitative analysis unit normalizes the image density profile and calculates the maximum value of h and the distribution width w corresponding to the diameter of the blood vessel from the normalized image density profile.

11. The noninvasive blood analyzer of claim 10, wherein the quantitative analysis unit calculates a depth L determined between the surface of the body tissue and the blood vessel based on the position of the focal point of the objective lens, which is adjusted using a regulating device so as to receive an image with with the greatest sharpness, and adjust the maximum value of h and the distribution width w based on the depth L.

12. The noninvasive blood analyzer of claim 8, wherein the quantitative analysis unit normalizes the image density profile and calculates a maximum value h and a distribution width w corresponding to the diameter of a blood vessel from the image density profile.

13. The noninvasive blood analyzer according to claim 12, wherein the quantitative analysis unit corrects the maximum value of h and the distribution width w based on a plurality of images taken each time when passing through a two-dimensionally variable spatial filter.

14. Atraumatic blood analyzer according to claim 1, characterized in that it further comprises a fixing element for the relative fixation of a living organism in relation to the light source and an image receiving unit.

15. Atraumatic blood analyzer according to claim 1, characterized in that the image receiving unit receives an image of a blood vessel and tissues in transmitted light.

16. Atraumatic blood analyzer according to claim 1, characterized in that the image receiving unit receives an image of a blood vessel and tissues in reflected light.

17. An atraumatic blood analyzer, including a light source for illuminating a portion of the tissues of a living organism, including a blood vessel, an image receiving unit for receiving an image of an illuminated blood vessel and tissues, and an analysis unit for analyzing the received image, the analysis unit analyzing the distribution image density of the blood vessel and tissues in the received image to calculate the amount of the component of the blood and output the calculated result.

18. Atraumatic blood analyzer according to claim 17, characterized in that the amount of the component of the blood is at least a concentration of hemoglobin or hematocrit.

19. The non-invasive blood analyzer according to claim 1, characterized in that the light source includes a light emitting device that is designed to selectively emit light rays of the first and second wavelengths, which are in the range between 600 and 950 nm.

20. The non-invasive blood analyzer according to claim 17, wherein the image pickup unit includes an objective lens, a focusing lens, a spatial filter located between the lenses and having two-dimensionally changing transmittance, and a device controlling the filter for two-dimensionally changing the transmittance spatial filter.

21. The non-invasive blood analyzer according to claim 20, wherein the image pickup unit further includes an adjusting device for adjusting the position of the focal point of the objective lens with respect to the blood vessel.