FEEDBACK SENSOR FOR REAL-TIME MANAGEMENT OF SICKLE CELL DISEASE
First Claim
1. A wearable device for determining the ongoing risk of red blood cells sickling, pain crises, and associated hypoxic tissue damage, the device comprising:
- a wearable sensor for detecting the morphology of red blood cells;
a processor for receiving information from the wearable sensor and assessing the extent of red blood cell sickling in real time; and
an output coupled to the processor configured to warn of an elevated risk of pain crises and/or associated hypoxic tissue damage.
1 Assignment
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Accused Products
Abstract
Described herein are devices, systems and methods for real-time (or near real-time) monitoring of red blood cell morphology, and in particular, monitoring of sickling to provide an indication of the risk of a the downstream consequences of sickling, such as the pain crises and associated hypoxic tissue damage which may occur as sickling progresses. The monitors describe herein may be continuous (e.g., sampling the subject continuously while worn or activated), or they may operate at a predetermine or selectable sampling rate. In some variations, the devices described herein are worn or applied to the patient non-invasively or minimally invasively.
39 Citations
6 Claims
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1. A wearable device for determining the ongoing risk of red blood cells sickling, pain crises, and associated hypoxic tissue damage, the device comprising:
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a wearable sensor for detecting the morphology of red blood cells; a processor for receiving information from the wearable sensor and assessing the extent of red blood cell sickling in real time; and an output coupled to the processor configured to warn of an elevated risk of pain crises and/or associated hypoxic tissue damage.
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2. An implantable device for determining the ongoing risk of red blood cell sickling, pain crises, and associated hypoxic tissue damage, the device comprising:
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an implantable sensor for determining the morphology of red blood cells; a processor for receiving information from the sensor and assessing the extend to red blood cell sickling in real time; and an output coupled to the processor configured to warn of an elevated risk of pain crisis and/or associated hypoxic tissue damage.
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3. Method of determining risk of RBC sickling, pain crises, and associated hypoxic tissue damage in real-time, the method comprising:
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determining the extent of sickling of red blood cells in real- or near-real time by examining the morphology of the red blood cells; assessing the risk of pain crisis and/or associated hypoxic tissue damage based on the extent of sickling determined; and providing a warning of pain crisis and/or associated hypoxic tissue damage. - View Dependent Claims (4)
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5. A system for determining the risk of RBC sickling, pain crises, and associated hypoxic tissue damage, the system comprising:
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a sensing element comprising a sensor for detecting the morphology of red blood cells in real time or near-real time, wherein the sensing element is configured to contact a subject; a processing element in communication with the sensing element, wherein the processing element is configured for receiving information from the sensor and assessing the extent of red blood cell sickling in real time; and an output element in communication with the processing element configured to warn of an elevated risk of pain crises and/or associated hypoxic tissue damage. - View Dependent Claims (6)
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Specification
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Current AssigneeHopeLab Foundation, Inc.
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Original AssigneeHopeLab Foundation, Inc.
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InventorsCole, Steven W.
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Application NumberUS12/697,531Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current600/368CPC Class CodesA61B 5/0059 using light, e.g. diagnosis...A61B 5/1455 using optical sensors, e.g....A61B 5/7275 Determining trends in physi...G16H 50/30 for calculating health indi...
