Abstract: The present invention is capable of separating/removing the influence of skin blood flow contained in near infrared spectroscopy (NIRS) signals and extracting a brain- or brain cortex-origin signal. Moreover, the present invention enables versatile separation of brain-origin and skin-origin signals in view of differences among individuals. A biological photometric device, wherein light transmitters and light receivers are located in such a manner that measurement can be conducted at a plurality of source-detector (SD) distances and light received by the individual light-receivers can pass through the gray matter to thereby separate a brain-origin signal and a skin-origin signal. Individual component analysis (ICA) is conducted on data obtained at the individual measurement points. Then, it is determined whether each individual component originates in the brain or in the skin with the use of the SD distance-dependency of the weighted value of each of the separated components.

Abstract: The biological optical measurement instrument is provided with a mobile position sensor that can move in a 3-dimensional space and that detects spatial position in the 3-dimensional space, a head-surface image creating unit that creates a head-surface image of an object and a head-surface point creating unit that creates, on the head-surface image, a head-surface point corresponding to the spatial position of the mobile position sensor.

Abstract: In a biophotonic measurement apparatus using a probe having a plurality of irradiation-detector distances (SD distances) in order to separate light absorption changes in a surface layer and a deep layer of a biological tissue on the basis of near infrared spectroscopy, light reception sensitivity is stabilized on each subject/each region by adjusting an attenuation amount of light to be transmitted or received.

Abstract: A biological optical measurement instrument has a gain adjustment unit (40) configured to set the gain value according to the intensity of the passing light in the measurement data detected by the optical measurement unit (12), a gain storage unit (44) configured to store the damage gain value set by the gain adjustment unit (40) when a damaged incident optical fiber (6a) or a damaged detection optical fiber (8a) is used, a gain comparison unit (42) configured to compare the gain value set by the gain adjustment unit (40) and the damage gain value stored in the gain storage unit (44), and a damage determination unit (46) configured to determine whether or not the incident optical fiber (6a) or the detection optical fiber (8a) is damaged on the basis of the comparison result by the gain comparison unit (42). The display unit (36) displays the damage condition.

Abstract: To provide a highly reliable inspection device that prevents a loss in reliability of inspection that uses information from a position detector as a result of the influence of magnetic bodies or the like that are present in the environment, the inspection device includes biological information measurement units that measure biological information of an inspected target and form an image containing the biological information, a magnetic position detector that detects the position of at least one of the biological information measurement units and the inspection target, and a control unit that controls the biological information measurement units and the magnetic position detector; and further includes the control unit being provided with an environmental magnetic field measurement unit that uses the output of the magnetic position detector to measure distortion of the magnetic field in the measured space in which the biological information measurement units are placed.

Abstract: The present invention is capable of separating/removing the influence of skin blood flow contained in near infrared spectroscopy (NIRS) signals and extracting a brain- or brain cortex-origin signal. Moreover, the present invention enables versatile separation of brain-origin and skin-origin signals in view of differences among individuals. A biological photometric device, wherein light transmitters and light receivers are located in such a manner that measurement can be conducted at a plurality of source-detector (SD) distances and light received by the individual light-receivers can pass through the gray matter to thereby separate a brain-origin signal and a skin-origin signal. Individual component analysis (ICA) is conducted on data obtained at the individual measurement points. Then, it is determined whether each individual component originates in the brain or in the skin with the use of the SD distance-dependency of the weighted value of each of the separated components.

Abstract: A probe holder mounting device for a biological photometric device includes: a probe holder having a plurality of probe mounting parts to which optical fiber probes are mounted; a band-like mounting device body having a plurality of insertion holes into which the probe mounting parts are to be inserted to fix the probe holder in position by means of the insertion holes; belts whose one ends are respectively connected to both longitudinal ends of the mounting device body and whose other ends are engaged with each other; and an adjusting belt connected to the mounting device body at a position where the probe holder is fixed in position in a lateral direction of the mounting device body.

Abstract: In order to provide a highly reliable inspection device that prevents a loss in reliability of inspection that uses information from a position detector as a result of the influence of magnetic bodies or the like that are present in the environment, the inspection device is characterized by being provided with biological information measurement units (10, 12) that measure biological information of an inspected target and form an image containing said biological information, a magnetic position detector (50) that detects the position of at least one of the aforementioned biological information measurement units and the inspection target, and a control unit (14) that controls the aforementioned biological information measurement units and the aforementioned magnetic position detector (50); and is further characterized by the aforementioned control unit (14) being provided with an environmental magnetic field measurement unit (301) that uses the output of the aforementioned magnetic position detector (50) to mea

Abstract: The biological optical measurement instrument is provided with a mobile position sensor that can move in a 3-dimensional space and that detects spatial position in the 3-dimensional space, a head-surface image creating unit that creates a head-surface image of an object and a head-surface point creating unit that creates, on the head-surface image, a head-surface point corresponding to the spatial position of the mobile position sensor.

Abstract: There is provided an optical bioinstrumentation device, with which measurement data reflect more correctly the information inside the living body with less noise even the subject moves when the information inside the living body is measured by using the light. In the present invention, the means for fixing the part other than the tips of the optical fibers for irradiation and detection on the fixing member which is to fix the tips of the optical fiber for irradiation and detection on the subject, or, the means for fixing the optical fiber is fixed on the fixing member which is to fix the end of the optical fiber on the subject, or the means for fixing the optical fiber at two or more positions on the subject.

Abstract: A biological optical measurement instrument has a gain adjustment unit (40) configured to set the gain value according to the intensity of the passing light in the measurement data detected by the optical measurement unit (12), a gain storage unit (44) configured to store the damage gain value set by the gain adjustment unit (40) when a damaged incident optical fiber (6a) or a damaged detection optical fiber (8a) is used, a gain comparison unit (42) configured to compare the gain value set by the gain adjustment unit (40) and the damage gain value stored in the gain storage unit (44), and a damage determination unit (46) configured to determine whether or not the incident optical fiber (6a) or the detection optical fiber (8a) is damaged on the basis of the comparison result by the gain comparison unit (42). The display unit (36) displays the damage condition.

Abstract: A living body information signal processing system (100) combining organically a living body optical measurement apparatus and a brain wave measurement apparatus, the living body optical measurement apparatus (300) in which inspection light of from visible to near infrared is irradiated on a head portion of a subject (140) and the penetration light is received and which measures an optical characteristic variation induced by a brain activity inside the head portion as a living body optical signal and the brain wave measurement apparatus (400) which measures an electrical characteristic variation induced by a brain activity inside the head portion of the subject as a brain wave signal, is provided with a probe device (50) used for both apparatus; and a living body information signal processing and displaying device (200) which displays the living body optical signal corresponding to respective measurement positions from the living body optical measurement apparatus and the brain wave signal corresponding to re

Abstract: A biological optical measurement instrument including: a measurement probe positionable to a surface of a subject, which irradiates light beams having a plurality of wavelengths from a light beam source through optical fibers onto the subject, and collects the light beams passed inside the subject from a plurality of positions to facilitate production of diagnostics from collected light beams of the subject, wherein the measurement probe is provided with probe casings which hold the optical fibers, fixing members where each respective fixing member is mateable with a respective probe casing to position the probe casings in a predetermined interval, and a support member which supports the fixing members, and wherein at least one of the respective probe casing or the respective fixing member is provided with a stopper claw to permit fixed engagement of the respective probe casing with the respective fixing member upon mating thereof.

Abstract: In a measuring probe, the distal ends of an irradiation optical fiber and a detection optical fiber on the subject side are held by a holder portion which is to be mounted on a subject. The optical fibers are led out from the side surface of the holder portion. Further, the optical fibers are bent in the holder portion so that the distal ends of the optical fibers are directed towards the subject when the holder portion is mounted on the subject.

Abstract: A probe holder mounting device for a biological photometric device includes: a probe holder having a plurality of probe mounting parts to which optical fiber probes are mounted; a band-like mounting device body having a plurality of insertion holes into which the probe mounting parts are to be inserted to fix the probe holder in position by means of the insertion holes; belts whose one ends are respectively connected to both longitudinal ends of the mounting device body and whose other ends are engaged with each other; and an adjusting belt connected to the mounting device body at a position where the probe holder is fixed in position in a lateral direction of the mounting device body.

Abstract: There is provided an optical bioinstrumentation device, with which measurement data reflect more correctly the information inside the living body with less noise even the subject moves when the information inside the living body is measured by using the light. In the present invention, the means for fixing the part other than the tips of the optical fibers for irradiation and detection on the fixing member which is to fix the tips of the optical fiber for irradiation and detection on the subject, or, the means for fixing the optical fiber is fixed on the fixing member which is to fix the end of the optical fiber on the subject, or the means for fixing the optical fiber at two or more positions on the subject.

Abstract: The present invention provides a biological measurement probe readily wearable on a biological surface having a large curvature and a measurement technique of simultaneously measuring the blood circulation dynamic change accompanying the auditory/language/visual function activities of a subject (especially baby) and brain waves. A biological measurement probe having illuminating means for illuminating a subject through a first optical waveguide and light collecting means for collecting light illuminated from the illuminating means and propagated through the subject through a second optical waveguide, has first and second guide members having passages through which the first and second optical waveguides are passed and fixing the first and second optical waveguides, and a base member connecting the first guide member to the second one, holding them, and forming a portion brought into contact with the subject.

Abstract: A living body information signal processing system (100) combining organically a living body optical measurement apparatus and a brain wave measurement apparatus, the living body optical measurement apparatus (300) in which inspection light of from visible to near infrared is irradiated on a head portion of a subject (140) and the penetration light is received and which measures an optical characteristic variation induced by a brain activity inside the head portion as a living body optical signal and the brain wave measurement apparatus (400) which measures an electrical characteristic variation induced by a brain activity inside the head portion of the subject as a brain wave signal, is provided with a probe device (50) used for both apparatus; and a living body information signal processing and displaying device (200) which displays the living body optical signal corresponding to respective measurement positions from the living body optical measurement apparatus and the brain wave signal corresponding to re

Abstract: The present invention provides an optical measurement device of biological tissue having a probe attachable to a moving part of a living body with a high curvature in biophotometry. A member having a high flexibility and a high friction coefficient is disposed on a surface for contact with the living body. In addition, a device for light irradiation and a device for collection of light are fixed with an elastic material for uniform pressure application. The resulting double structure or double layer has solved a problem.

Abstract: A biological optical measurement instrument including: a measurement probe positionable to a surface of a subject, which irradiates light beams having a plurality of wavelengths from a light beam source through optical fibers onto the subject, and collects the light beams passed inside the subject from a plurality of positions to facilitate production of diagnostics from collected light beams of the subject, wherein the measurement probe is provided with probe casings which hold the optical fibers, fixing members where each respective fixing member is mateable with a respective probe casing to position the probe casings in a predetermined interval, and a support member which supports the fixing members, and wherein at least one of the respective probe casing or the respective fixing member is provided with a stopper claw to permit fixed engagement of the respective probe casing with the respective fixing member upon mating thereof.