Benni, CT
Paul Benni, Guilford, CT US
Patent application number | Description | Published |
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20080300473 | Stabilized Multi-Wavelength Laser System for Non-Invasive Spectrophotometric Monitoring - A spectroscopy system that may be used for spectrophotometric oxygenation monitoring of tissue includes a monitor portion and a sensor portion. The sensor portion generally includes a light source and one or more light detectors. The sensor portion may attach to a human to sense light signals from the light source that have traversed biological tissue, the light signals ultimately being used by the system to determine biological tissue blood hemoglobin oxygenation levels. The monitor portion generally includes a processor and a visual display. A laser beam combiner may couple a plurality of laser diode output light signals into one optical fiber. To stabilize the output of each of the laser diodes, an optical fiber light stabilizer is coupled to the combined laser diode output. The optical fiber light stabilizer redistributes the modes in the optical fiber such that the higher-order modes are filled until an equilibrium mode distribution is established. A light sensor may also provide feedback with respect to the laser diode output, which allows for compensation of any laser diode light output instability independently of optical fiber related instabilities. | 12-04-2008 |
20090108205 | NIRS SENSOR MOUNTING APPARATUS - A near infrared spectrophotometric (NIRS) sensor apparatus is provided that includes at least one NIRS sensor and a mounting device. The sensor has at least one light source, at least one light detector, and a flexible pad. The light source and the light detector are mounted on the flexible pad, which flexible pad has a peripheral edge that extends around the entire periphery of the pad. The light source and light detectors are configured for connection to an electro-optical cable. The mounting device is operable to secure the sensor to a subject, which mounting device is sized to cover the sensor and contact the subject around the entire peripheral edge of the pad. The mounting device includes a light barrier that at least substantially blocks light from passing through the mounting device. | 04-30-2009 |
20090281403 | METHOD FOR SPECTROPHOTOMETRIC BLOOD OXYGENATION MONITORING - According to the present invention, a method and apparatus for non-invasively determining the blood oxygen saturation level within a subject's tissue is provided. The method comprises the steps of: 1) providing a near infrared spectrophotometric sensor operable to transmit light along a plurality of wavelengths into the subject's tissue; 2) sensing the light transmitted into the subject's tissue using the sensor, and producing signal data representative of the light sensed from the subject's tissue; 3) processing the signal data to account for physical characteristics of the subject; and 4) determining the blood oxygen saturation level within the subject's tissue using a difference in attenuation between the wavelengths. The apparatus includes a sensor having a light source and at least one light detector, which sensor is operably connected to a processor. The sensor is operable to transmit light along a plurality of wavelengths into the subject's tissue, and produce signal data representative of the light sensed from the subject's tissue. The algorithm is operable to process the signal data to account for the physical characteristics of the subject being sensed. | 11-12-2009 |
20100087719 | METHOD AND APPARATUS FOR DETERMINING CEREBRAL DESATURATION IN PATIENTS UNDERGOING DEEP HYPOTHERMIC CIRCULATORY ARREST - A method and apparatus for determining cerebral oxygen saturation in a subject is provided. The method comprises the steps of: a) determining tissue oxygen saturation values using a NIRS type oximeter over a period of time; b) modeling a rate of change in the tissue oxygen saturation values; and c) determining an amount of time until a predetermined tissue oxygen saturation value is reached using the modeling of the tissue oxygen saturation values. | 04-08-2010 |
20100105998 | METHOD AND APPARATUS FOR SPECTROPHOTOMETRIC BASED OXIMETRY OF SPINAL TISSUE - A near infrared spectrophotometric sensor for non-invasive monitoring of blood oxygenation levels in a subject's spinal cord tissue and spinal cord blood vessels is provided. The sensor includes at least one light source and at least one light detector. The light source is operative to emit near infrared light signals of a plurality of different wavelengths. The light detector is operative to sense light signals emitted from the light source and passed through the subject's spinal tissue, and to produce a sensor signal representative of the sensed light signals The light source is separated from the light detector by a distance representative of a distance from a first vertebrae structure of a human spine to a second vertebrae structure of the human spine, to permit alignment of the light source and detector with the first and second vertebrae structure. | 04-29-2010 |
Paul B. Benni, Guilford, CT US
Patent application number | Description | Published |
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20080285029 | Calibration Device for a Spectrophotometric System - A method and apparatus for calibrating an NIRS system which includes a sensor portion ( | 11-20-2008 |
20080300474 | Indicators For A Spectrophotometric System - A near-infrared spectrophotometric system (e.g., a cerebral oximeter) includes a sensor portion and a monitor portion. The monitor portion includes a processor that runs an algorithm which utilizes the amount of detected light to determine the value of the oxygen concentration (e.g., the absolute level of oxygen concentration). The monitor portion also includes a visual display that displays the determined oxygen concentration values in various formats. The monitor portion may also include an audible device (e.g., a speaker), that provides audible indications of the determined oxygen concentration values. Various visual indicators may include, for example, color-coded graphs of the determined oxygenation values to alert the system user, for example, whether one hemisphere of the brain, or one or more regions of the brain, is in danger of adverse and potentially permanent damage. Also, data may be pre-processed by selecting the most clinically concerning sensor value (e.g., the sensor with the lowest value), and displaying only that sensor value and its identification on the display screen. Alternatively, an average value of multiple sensor measurements may be displayed. This reduces screen clutter and increases the speed of interpretation by the system user. Also, all sensor values may be averaged, and the average value displayed. The determined oxygenation values may also be provided in an audible format. | 12-04-2008 |
20100049018 | APPARATUS FOR SPECTROMETRIC BASED OXIMETRY - A spectrophotometric sensor assembly for non-invasive monitoring of a blood metabolite within a subject's body tissue is provided that includes a pad, a light source, and a light detector The light source is operative to emit light signals of a plurality of different wavelengths. The light detector is operative to detect light emitted by the light source and passed through the subject's body tissue. The light detector is at least partially enclosed in EMI shielding. In some embodiments, the light detector and EMI shielding are disposed in a detector housing that encloses the light detector and shielding. The housing is aligned with a detector aperture disposed in the pad. | 02-25-2010 |