Abstract: A system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment, including either suspending or adjusting turn schedule based on various types of patient movement. Compliance with Head-of-Bed protocols can also be performed based on actual patient position instead of being inferred from bed elevation angle.
Type:
Application
Filed:
June 20, 2016
Publication date:
October 20, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Barrett J. LARSON, Daniel Z. SHEN, Mark V. WECKWERTH, Charles Matthew Peterson HAMMOND
Abstract: A system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment. In some embodiments, the system can further include a support surface having one or more sensors incorporated therein either in addition to sensors affixed to the patient or as an alternative thereof. The sensor can include bi-axial or tri-axial accelerometers, as well as resistive, inductive, capactive, magnetic and other sensing devices, depending on whether the sensor is located on the patient or the support surface, and for what purpose.
Type:
Application
Filed:
June 15, 2016
Publication date:
October 13, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Barrett J. LARSON, Daniel Z. SHEN, Mark V. WECKWERTH, Charles Matthew Peterson HAMMOND
Abstract: A system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment, including either suspending or adjusting turn schedule based on various types of patient movement. The sensor can include bi-axial or tri-axial accelerometers, as well as resistive, inductive, capacitive, magnetic and other sensing devices, depending on whether the sensor is located on the patient or the support surface, and for what purpose.
Type:
Application
Filed:
June 20, 2016
Publication date:
October 13, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Barrett J. LARSON, Daniel Z. SHEN, Mark V. WECKWERTH, Charles Matthew Peterson HAMMOND
Abstract: A system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment. In some embodiments, the system can further include a support surface having one or more sensors incorporated therein either in addition to sensors affixed to the patient or as an alternative thereof. The support surface is, in some embodiments, capable of responding to commands from the host for assisting in implementing a course of action for patient treatment.
Abstract: A system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment. In some embodiments, the system can further include a support surface having one or more sensors incorporated therein either in addition to sensors affixed to the patient or as an alternative thereof. The support surface is, in some embodiments, capable of responding to commands from the host for assisting in implementing a course of action for patient treatment.
Abstract: Methods, systems and devices for monitoring patient orientation, direction, altitude and location to determine the need for turns as well as to detect impending or actual bed exits or falls. A patient-worn sensor communicates with at least one host server through a mesh network of relay antennae to provide data representative of various patient characteristics. The sensor comprises one or more of an accelerometer, a magnetometer and an altimeter, along with optional other sensors. Various user interfaces are provided for managing patient care using the information developed by algorithms processed at the server based on data received from the patient sensors.
Type:
Application
Filed:
November 17, 2014
Publication date:
September 22, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Daniel Z. SHEN, Barrett J. LARSON, Mark V WECKWERTH
Abstract: Methods, systems and devices for monitoring patient orientation, direction, altitude and location to determine the need for turns as well as to detect impending or actual bed exits or falls. A patient-worn sensor communicates with at least one host server through a mesh network of relay antennae to provide data representative of various patient characteristics. The sensor comprises one or more of an accelerometer, a magnetometer and an altimeter, along with optional other sensors. Various user interfaces are provided for managing patient care using the information developed by algorithms processed at the server based on data received from the patient sensors.
Type:
Application
Filed:
May 13, 2016
Publication date:
September 8, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Daniel Z. SHEN, Barrett J. LARSON, Mark V. WECKWERTH
Abstract: A system for determining the location of patients uses a patient-associated communicator which wirelessly communicates with a network of environmental reference communicators arranged at fixed or otherwise known locations. A camera can be used to monitor or detect pressure ulcers and relay the information to a host system. Other embodiments are also disclosed.
Type:
Application
Filed:
October 8, 2014
Publication date:
August 25, 2016
Applicant:
Leaf Healthcare, Inc.
Inventors:
Daniel Z. SHEN, Barrett J. LARSON, Mark V WECKWERTH
Abstract: Methods, systems and devices for monitoring patient orientation, direction, altitude and location to determine the need for turns as well as to detect impending or actual bed exits or falls. A patient-worn sensor communicates with at least one host server through a mesh network of relay antennae to provide data representative of various patient characteristics. The sensor comprises one or more of an accelerometer, a magnetometer and an altimeter, along with optional other sensors. Various user interfaces are provided for managing patient care using the information developed by algorithms processed at the server based on data received from the patient sensors.
Type:
Application
Filed:
November 17, 2014
Publication date:
September 10, 2015
Applicant:
Leaf Healthcare, Inc.
Inventors:
Daniel Z. SHEN, Barrett J. Larson, Mark V. Weckwerth