Instrument for measuring intrauterine oxygen metabolism using optical technique
First Claim
1. An instrument for measuring the intrauterine status of oxygenation by applying an optical technique which comprises:
- a detecting unit for sensing the inside of the uterus by using near-infrared light, a measurement control unit that amplifies the detected signals coming from said detecting unit, make arithmetic operations, and analyzes the dynamic state of oxygenation, a display/recording unit that deals with the analyzed data, an external output unit that transmits the data to other devices, such as a data logger, and a power supply unit that supplies power to these units, wherein said detecting unit is provided with a sensor fixture, light-emitting fibers and light-receiving fibers, with both fiber fitted to their respective terminals that are formed on said sensor fixture, wherein said sensor fixture is made of a material that is not affected by any displacement cased by uterine contractions and is coated entirely with a light-absorbing paint, and is of a shape that has a curvature which enables the fixture to come in close contact with the maternal abdominal wall, and wherein the sensor is attached indirectly to the maternal abdominal wall so that the inside of the uterus can be exposed to the near-infrared light.
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Accused Products
Abstract
The detecting unit 1 of the instrument of this invention comprises optic fibers 12 and 13 for sensing the inside of the uterus by using near-infrared light of multiple wavelengths, and also comprises a sensor fixture 11 made of a duralumin plate entirely coated with a light-absorbing paint and having a shape with a curvature that allows the fixture to come in close contact with the maternal abdominal wall. This detecting unit 1 is attached to the maternal abdominal wall. The weak light signals obtained as reflections from inside the uterus are converted to electric signals, and these electric signals are arithmetically operated at the measurement control unit 2. In this manner, the inside of the uterus is continuously monitored directly or indirectly by a non-invasive method to detect the intrauterine status of Hb and HbO2.
13 Citations
3 Claims
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1. An instrument for measuring the intrauterine status of oxygenation by applying an optical technique which comprises:
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a detecting unit for sensing the inside of the uterus by using near-infrared light, a measurement control unit that amplifies the detected signals coming from said detecting unit, make arithmetic operations, and analyzes the dynamic state of oxygenation, a display/recording unit that deals with the analyzed data, an external output unit that transmits the data to other devices, such as a data logger, and a power supply unit that supplies power to these units, wherein said detecting unit is provided with a sensor fixture, light-emitting fibers and light-receiving fibers, with both fiber fitted to their respective terminals that are formed on said sensor fixture, wherein said sensor fixture is made of a material that is not affected by any displacement cased by uterine contractions and is coated entirely with a light-absorbing paint, and is of a shape that has a curvature which enables the fixture to come in close contact with the maternal abdominal wall, and wherein the sensor is attached indirectly to the maternal abdominal wall so that the inside of the uterus can be exposed to the near-infrared light. - View Dependent Claims (2, 3)
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Specification