Joint spectroscopic and biosensor system for point-of-care testing
First Claim
1. A system for measurement of at least two hemoglobin species in a patient'"'"'s blood sample by spectroscopy, and measurement of at least pH of the blood sample by biosensor, for assessing the patient'"'"'s oxygenation and acid-base status, the system comprising:
- a disposable cartridge for processing a portion of the blood sample, the cartridge comprising a housing having;
a cartridge inlet for engaging one of a syringe containing the blood sample and a capillary adaptor for transferring a portion of the blood sample from a puncture site of a body part of the patient to the cartridge;
a blood storage conduit having a proximal end close to the cartridge inlet and a distal end away from the cartridge inlet;
a blood storage conduit entrance at the proximal end of the blood storage conduit;
an optical chamber for receiving the blood from the distal end of the blood storage conduit and for measuring the at least two hemoglobin species;
an optical chamber overflow chamber fluidly connected with the optical chamber;
at least one optical window, wherein at least a portion of the at least one optical window is in alignment with at least a portion of the optical chamber;
a biosensor conduit for receiving the blood from the optical chamber overflow chamber, the biosensor conduit comprising at least a portion of a pH biosensor;
an air bladder;
an air bladder exit port, having an arrangement with the blood storage conduit entrance for providing pressurized air to the blood storage conduit via the blood storage conduit entrance, for urging the blood into the biosensor conduit;
a waste receptacle for receiving liquid waste from the biosensor conduit; and
a waste receptacle vent for relieving pressure in the waste receptacle;
a cap for sealing the cartridge inlet; and
,an analyzer comprising;
an analyzer housing;
a slot in the analyzer housing for receiving the disposable cartridge containing the blood sample;
a source of electromagnetic radiation;
at least one photodetector;
a processor for controlling the analyzer; and
at least two calibration algorithms installed on the processor for measuring the at least two hemoglobin species;
whereinthe system is adjustable between a sealed configuration and an unsealed configuration;
in the sealed configuration, and not in the unsealed configuration, the system comprises a closed air passage connecting the air bladder exit port to the blood storage conduit entrance for communicating the pressurized air from the air bladder exit port to the blood storage conduit entrance; and
,in the unsealed configuration, and not in the sealed configuration, the blood storage conduit entrance is configured to receive the blood.
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Accused Products
Abstract
Some embodiments of the invention provide a system for measurement of at least two hemoglobin species in a patient'"'"'s blood sample by spectroscopy, and measurement of at least pH of the blood sample by biosensor. The system comprises a disposable cartridge adapted for insertion into a slot of an analyzer, and the results are used to monitor the acid-base status of a patient. A method for monitoring the acid-base status of a patient using the system is also provided.
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Citations
21 Claims
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1. A system for measurement of at least two hemoglobin species in a patient'"'"'s blood sample by spectroscopy, and measurement of at least pH of the blood sample by biosensor, for assessing the patient'"'"'s oxygenation and acid-base status, the system comprising:
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a disposable cartridge for processing a portion of the blood sample, the cartridge comprising a housing having; a cartridge inlet for engaging one of a syringe containing the blood sample and a capillary adaptor for transferring a portion of the blood sample from a puncture site of a body part of the patient to the cartridge; a blood storage conduit having a proximal end close to the cartridge inlet and a distal end away from the cartridge inlet; a blood storage conduit entrance at the proximal end of the blood storage conduit; an optical chamber for receiving the blood from the distal end of the blood storage conduit and for measuring the at least two hemoglobin species; an optical chamber overflow chamber fluidly connected with the optical chamber; at least one optical window, wherein at least a portion of the at least one optical window is in alignment with at least a portion of the optical chamber; a biosensor conduit for receiving the blood from the optical chamber overflow chamber, the biosensor conduit comprising at least a portion of a pH biosensor; an air bladder; an air bladder exit port, having an arrangement with the blood storage conduit entrance for providing pressurized air to the blood storage conduit via the blood storage conduit entrance, for urging the blood into the biosensor conduit; a waste receptacle for receiving liquid waste from the biosensor conduit; and a waste receptacle vent for relieving pressure in the waste receptacle; a cap for sealing the cartridge inlet; and
,an analyzer comprising; an analyzer housing; a slot in the analyzer housing for receiving the disposable cartridge containing the blood sample; a source of electromagnetic radiation; at least one photodetector; a processor for controlling the analyzer; and at least two calibration algorithms installed on the processor for measuring the at least two hemoglobin species; wherein the system is adjustable between a sealed configuration and an unsealed configuration; in the sealed configuration, and not in the unsealed configuration, the system comprises a closed air passage connecting the air bladder exit port to the blood storage conduit entrance for communicating the pressurized air from the air bladder exit port to the blood storage conduit entrance; and
,in the unsealed configuration, and not in the sealed configuration, the blood storage conduit entrance is configured to receive the blood. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A disposable cartridge for operation with a joint spectroscopic and biosensor blood analyzer for measurement of at least two hemoglobin species in a patient'"'"'s blood sample by spectroscopy, and measurement of at least pH of the blood sample by biosensor, for assessing the patient'"'"'s oxygenation and acid-base status, the cartridge comprising a housing having at least a first housing member and a second housing member bonded together by a gasket, wherein
the housing comprises: -
a cartridge inlet; a blood storage conduit within the housing having a proximal end close to the cartridge inlet and a distal end away from the cartridge inlet; an optical chamber within the housing for receiving the blood from the distal end of the blood storage conduit and for measuring the at least two hemoglobin species, the optical chamber comprising an optical chamber depth dimension orthogonal to the gasket; an optical chamber overflow chamber fluidly connected with the optical chamber; a biosensor conduit within the housing for receiving the blood from the optical chamber overflow chamber, the biosensor conduit comprising a proximal end, a distal end and at least a portion of a pH biosensor; a calibration fluid pouch nested in the housing and containing calibration fluid for at least calibrating the pH biosensor; a calibration fluid conduit for transporting released calibration fluid to the biosensor conduit; a waste receptacle for receiving liquid waste from the biosensor conduit; a vent for relieving pressure in the waste receptacle; an air bladder and an air bladder exit port within the housing for providing pressurized air for urging blood from the blood storage conduit into the biosensor conduit; and a blood shunt for providing fluid connectivity between the distal end of the blood storage conduit and the optical chamber overflow chamber, the blood shunt having a maximum shunt depth dimension orthogonal to the gasket, and wherein the maximum shunt depth dimension is substantially larger than the optical chamber depth dimension, whereby the blood shunt provides a more efficient blood flow from the distal end of the blood storage conduit to the biosensor conduit; the first housing member comprises; one of a first optical window and a first reflecting member; the second housing member comprises; one of a second optical window and a second reflecting member, positioned to align with at least a portion of the optical chamber and at least a portion of the one of a first optical window and a first reflecting member; the gasket having a plurality of cut-outs comprising at least; a first gasket cut-out positioned to provide fluid connection between the blood storage conduit and the optical chamber, wherein at least a portion of the first gasket cut-out is positioned to align with at least a portion of the optical chamber for collecting spectroscopic data from blood in that portion of the optical chamber; a second gasket cut-out positioned to provide fluid connection between the calibration fluid conduit and the biosensor conduit, the second gasket cut-out disposed around the proximal end of the biosensor conduit; a third gasket cut-out positioned to at least align with the active area of the pH biosensor; and a fourth gasket cut-out positioned to provide fluid connection between the distal end of the biosensor conduit and the waste receptacle. - View Dependent Claims (10, 11)
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12. A disposable cartridge adapted for insertion along an insertion plane into the slot of a joint spectroscopic and biosensor analyzer for measurement of at least two hemoglobin species in a patient'"'"'s blood sample by spectroscopy, and measurement of at least pH of the blood sample by biosensor, for assessing the patient'"'"'s oxygenation and acid-base status, the cartridge comprising:
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a housing; a cartridge inlet in the housing for receiving the blood sample; a blood storage conduit within the housing having a proximal end close to the cartridge inlet and a distal end away from the cartridge inlet; an optical chamber within the housing for receiving the blood from the distal end of the blood storage conduit and for measuring the at least two hemoglobin species, the optical chamber comprising an optical depth dimension orthogonal to the insertion plane; at least one optical window in the housing positioned to align with at least a portion of the optical chamber for collecting spectroscopic data from blood in that portion of the optical chamber; an optical chamber overflow chamber in fluid connection with the optical chamber for receiving blood from the optical chamber; a biosensor conduit within the housing for receiving the blood from the optical chamber overflow chamber, the biosensor conduit having at least one biosensor for measuring the at least pH of the blood sample; a blood shunt for providing fluid connectivity between the distal end of the blood storage conduit and the optical chamber overflow chamber, the blood shunt having a maximum shunt depth dimension orthogonal to the insertion plane, and wherein the maximum shunt depth dimension is substantially larger than the optical chamber depth dimension, for a more efficient blood flow from the distal end of the blood storage conduit to the biosensor conduit; an air bladder and an air bladder exit port within the housing for providing pressurized air for urging blood from the blood storage conduit into the biosensor conduit; a waste receptacle for receiving waste liquid from the biosensor conduit; and a waste receptacle vent for relieving pressure in the waste receptacle. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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19. A method for assessing a patient'"'"'s oxygenation and acid-base status, the method comprising:
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providing a disposable cartridge comprising; a cartridge inlet for receiving blood from one of a syringe containing the blood from the patient and a capillary adaptor for transferring a portion of blood from a puncture site of a body part of the patient to the cartridge; a blood storage conduit having a proximal end and a distal end, wherein the proximal end is fluidly connected to the cartridge inlet; an optical chamber fluidly connected to the blood storage conduit at the distal end; a biosensor conduit comprising at least a pH biosensor to measure blood pH, the biosensor conduit being fluidly connected to the blood storage conduit; a calibration fluid pouch containing calibration fluid; and an air bladder having an air bladder exit port; providing a cap for sealing the cartridge inlet; providing an analyzer comprising; a slot; a source of electromagnetic radiation; and a processor comprising at least two calibration algorithms for facilitating measurement of at least two hemoglobin species; filling the blood storage conduit and the optical chamber with blood from the patient; sealing the cartridge inlet with the cap to provide a sealed cartridge, after filling; when the cartridge inlet is sealed and not when filling the blood storage conduit with blood, providing a pathway for pressurized air from the air bladder exit port to the proximal end of the blood storage conduit; when filling the blood storage conduit with blood and not when the cartridge inlet is sealed, substantially blocking a portion of the blood storage conduit receiving the blood from the air bladder exit port to substantially isolate the air bladder exit port from the blood; inserting the sealed cartridge into the slot of the analyzer; irradiating the blood in the optical chamber with the source of electromagnetic radiation and collecting spectroscopic data; applying the at least two calibration algorithms to the spectroscopic data and obtaining concentrations of the at least two hemoglobin species; calculating hemoglobin oxygen saturation from the concentrations of the at least two hemoglobin species; calibrating the pH biosensor by at least releasing calibration fluid from the calibration fluid pouch and bringing the calibration fluid in contact with the pH biosensor, after the step of inserting the sealed cartridge; activating the air bladder to provide a pressurized air flow through the pathway for the pressurized air to the proximal end of the blood storage conduit to bring some of the blood sample in contact with the pH biosensor, after the step of calibrating; and measuring the blood pH, after the steps of irradiating the optical chamber and activating the air bladder, whereby the hemoglobin oxygen saturation and the blood pH provide an assessment of the patients oxygenation and acid-base status. - View Dependent Claims (20, 21)
whereby blood flow into the air bladder during the step of filling the blood storage conduit and the optical chamber with blood from the patient, is mitigated.
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21. The method for assessing a patient'"'"'s oxygenation and acid-base status of claim 19, wherein the cartridge inlet is adapted to receive a capillary adaptor for transferring a portion of the blood from a puncture site of a body part of the patient to the cartridge, and wherein the capillary adaptor comprises:
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a capillary adaptor inlet member configured as a piece of a capillary tube, having a capillary adaptor inlet port for insertion into the blood sample; a capillary adaptor outlet port for substantially mating with the proximal end of the blood storage conduit; a capillary adaptor lumen for fluidly connecting the capillary adaptor inlet port and the capillary adaptor outlet port; and a handgrip for handling the capillary adaptor, and the method further comprises; extending the blood storage conduit by the length of the capillary adaptor lumen by properly engaging the capillary adaptor lumen with the cartridge inlet.
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Specification