Patents Assigned to Nellcor Puritan Bennett
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Publication number: 20130066176Abstract: Methods and systems are discussed for determining venous oxygen saturation by calculating a ratio of ratios from respiration-induced baseline modulations. A calculated venous ratio of ratios may be compared with a look-up table value to estimate venous oxygen saturation. A calculated venous ratio of ratios is compared with an arterial ratio of ratios to determine whether baseline modulations are the result of a subject's respiration or movement. Such a determination is also made by deriving a venous ratio of ratios using a transform technique, such as a continuous wavelet transform. Derived venous and arterial saturation values are used to non-invasively determine a cardiac output of the subject.Type: ApplicationFiled: September 9, 2011Publication date: March 14, 2013Applicant: Nellcor Puritan Bennett IrelandInventors: Paul Addison, James Watson, James Ochs
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Publication number: 20130066173Abstract: Methods and systems are discussed for determining venous oxygen saturation by calculating a ratio of ratios from respiration-induced baseline modulations. A calculated venous ratio of ratios may be compared with a look-up table value to estimate venous oxygen saturation. A calculated venous ratio of ratios is compared with an arterial ratio of ratios to determine whether baseline modulations are the result of a subject's respiration or movement. Such a determination is also made by deriving a venous ratio of ratios using a transform technique, such as a continuous wavelet transform. Derived venous and arterial saturation values are used to non-invasively determine a cardiac output of the subject.Type: ApplicationFiled: September 9, 2011Publication date: March 14, 2013Applicant: Nellcor Puritan Bennett IrelandInventors: Paul Addison, James Watson, Paul Mannheimer
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Publication number: 20130066175Abstract: Methods and systems are discussed for determining venous oxygen saturation by calculating a ratio of ratios from respiration-induced baseline modulations. A calculated venous ratio of ratios may be compared with a look-up table value to estimate venous oxygen saturation. A calculated venous ratio of ratios is compared with an arterial ratio of ratios to determine whether baseline modulations are the result of a subject's respiration or movement. Such a determination is also made by deriving a venous ratio of ratios using a transform technique, such as a continuous wavelet transform. Derived venous and arterial saturation values are used to non-invasively determine a cardiac output of the subject.Type: ApplicationFiled: September 9, 2011Publication date: March 14, 2013Applicant: Nellcor Puritan Bennett IrelandInventors: Paul Addison, James Watson
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Publication number: 20130066174Abstract: Methods and systems are discussed for determining venous oxygen saturation by calculating a ratio of ratios from respiration-induced baseline modulations. A calculated venous ratio of ratios may be compared with a look-up table value to estimate venous oxygen saturation. A calculated venous ratio of ratios is compared with an arterial ratio of ratios to determine whether baseline modulations are the result of a subject's respiration or movement. Such a determination is also made by deriving a venous ratio of ratios using a transform technique, such as a continuous wavelet transform. Derived venous and arterial saturation values are used to non-invasively determine a cardiac output of the subject.Type: ApplicationFiled: September 9, 2011Publication date: March 14, 2013Applicant: Nellcor Puritan Bennett IrelandInventors: Paul S. Addison, James Watson, James Ochs, Scott McGonigle
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Publication number: 20130060104Abstract: The present embodiments relate generally to patient monitoring system and, more particularly, to optical patient monitoring systems. In an embodiment, a physiological sensor includes a broadband emitter configured to emit two or more wavelengths of light into the tissue of a patient. The sensor also includes a charge coupled device (CCD) or complementary metal-oxide semiconductor (CMOS) photodetector array comprising a plurality of photodetectors. Each photodetector in the photodetector array is configured to receive the light from the tissue of the patient and to produce a corresponding output signal. Additionally, the sensor also includes one or more filter layers disposed on the plurality of photodetectors. The filter layers are configured to only allow light of particular wavelengths, polarizations, or both, to be received by each of the plurality of photodetectors.Type: ApplicationFiled: September 7, 2011Publication date: March 7, 2013Applicant: Nellcor Puritan Bennett LLCInventor: Friso Schlottau
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Publication number: 20130060109Abstract: Remanufactured medical sensors and methods for remanufacturing used medical sensors are provided. Such a remanufactured sensor may include certain components from a used medical sensor and certain new components. For example, a remanufactured regional oximetry sensor may include a padding layer, an emitter and a pair of detectors, a flexible circuit coupled to the emitter and detectors, and a patient-contacting adhesive layer. The flexible circuit, the emitter, the first detector, the second detector, or any combination thereof, are from a used medical sensor, and the padding layer, the patient-contacting adhesive layer, or a combination thereof, are new.Type: ApplicationFiled: September 7, 2011Publication date: March 7, 2013Applicant: Nellcor Puritan Bennett LLCInventors: David P. Besko, Donald R. Sandmore
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Publication number: 20130047989Abstract: This disclosure describes systems and methods for ventilating a patient with a tidal volume that adjusts based on patient compliance. The disclosure describes a novel breath type or setting for existing breath types, that automatically and continuously varies the delivered tidal volume based on patient compliance and/or other monitored parameters.Type: ApplicationFiled: August 31, 2011Publication date: February 28, 2013Applicant: Nellcor Puritan Bennett LLCInventors: Joseph Doug Vandine, Peter Doyle
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Publication number: 20130053636Abstract: The present disclosure describes systems and methods that utilize a multi-lumen tube with an integral visualization apparatus, such as a camera. The multi-lumen tracheal tube system may include a camera apparatus that is positioned to facilitate left or right bronchial intubation. In addition, the camera apparatus may be a unitary assembly that functions to hold and position the camera relative to the tube and provides an acceptable profile for comfortable intubation. The camera apparatus may include additional components, such as integral light sources and flushing or cleaning devices to remove any buildup from the camera or optical components.Type: ApplicationFiled: August 31, 2011Publication date: February 28, 2013Applicant: Nellcor Puritan Bennett LLCInventors: Sarah Hayman, Lockett Wood, Neville DeWitt Pierrat
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Publication number: 20130047993Abstract: Various embodiments of tracheostomy tube assemblies including a flange member having a variable volume are provided. The tracheostomy tube assemblies may include a cannula having a distal end and a proximal end. The distal end may be adapted to be inserted into a patient's trachea, and the flange member may be disposed about the proximal end of the cannula. The flange member is adapted to expand to a first volume and to contract to a second volume, the first volume being greater than the second volume.Type: ApplicationFiled: August 31, 2011Publication date: February 28, 2013Applicant: Nellcor Puritan Bennett LLCInventor: Olaf Lally
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Publication number: 20130053717Abstract: This disclosure describes systems and methods for configuring a ventilator for providing automatic, periodic ventilator adjustments to stimulate non-triggering patients to begin initiating spontaneous breathing efforts. Based on studies of respiration, a neural signal stimulating spontaneous breathing efforts is initiated when a patient's arterial partial pressure of carbon dioxide (PaCO2) reaches a certain threshold level, which threshold level may vary from individual to individual. Accordingly, an automatic, periodic ventilator challenge to stimulate spontaneous breathing efforts in a non-triggering patient is provided. An automatic, periodic ventilator challenge refers to an automatic, periodic reduction in the ventilation of a non-triggering patient intended to increase PaCO2 levels within a clinically-acceptable range.Type: ApplicationFiled: August 30, 2011Publication date: February 28, 2013Applicant: Nellcor Puritan Bennett LLCInventors: J. Doug Vandine, Peter R. Doyle
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Patent number: 8385675Abstract: According to embodiments, systems and methods for reducing noise in a signal are provided. A signal may be transformed using a continuous wavelet transform and a corresponding scalogram may be generated. Regions of noise may be identified from the resulting scalogram. These regions may be masked by, for example, removing, altering, or appropriately tagging the regions. After masking the regions of noise, the scalogram may be converted to a filtered signal using an inverse wavelet transform. Alternatively or additionally, desirable regions of non-noise may instead be identified from the resulting scalogram. These desirable regions may be extracted from the scalogram and an inverse wavelet transform performed on the extracted regions in order to generate a filtered signal.Type: GrantFiled: October 10, 2008Date of Patent: February 26, 2013Assignee: Nellcor Puritan Bennett IrelandInventors: James Nicholas Watson, Paul Stanley Addison
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Publication number: 20130046187Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046186Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046185Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046160Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046157Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046161Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046188Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyze the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyzer component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyzer component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046156Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20130046184Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: ApplicationFiled: August 20, 2012Publication date: February 21, 2013Applicant: NELLCOR PURITAN BENNETT IRELANDInventors: Paul Stanley Addison, James Nicholas Watson