User-restricted passage in reusable portion of device for monitoring a physiological pressure
First Claim
1. A pressure monitor for monitoring fluid pressure in a line that is in fluid communication with a physiological fluid, comprising:
- a) a disposable portion that includes a first housing, said disposable portion further comprising;
(i) a port adapted to couple to said line;
(ii) a first cavity disposed in said first housing, in fluid communication with the port; and
(iii) a first elastomeric membrane sealingly covering said first cavity;
(b) a reusable portion that includes a second housing adapted to engage and couple with said first housing, said reusable portion comprising;
(i) a second cavity disposed in said second housing;
(ii) a second elastomeric membrane covering said second cavity and disposed to contact said first elastomeric membrane when the first housing is engaged with the second housing; and
(iii) a reservoir disposed in said second housing, in fluid communication with said second cavity via a passage that connects the reservoir to the second cavity when the first housing is not engaged with the second housing, said reservoir, said passage, and said second cavity being filled with a substantially nonvolatile fluid; and
(c) a pressure transducer disposed adjacent to said second cavity, for producing a signal indicative of the pressure of the fluid in the line when the first housing is engaged with the second housing, engagement of said first housing with said second housing interrupting the fluid communication through the passage between the reservoir and the second cavity to minimize the volume of the nonvolatile fluid that transmits pressure from the second membrane to the pressure transducer, so that a characteristic maximum frequency response of the pressure monitor is substantially higher than it would be if the fluid communication through the passage were not interrupted.
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0 Petitions
Accused Products
Abstract
A pressure monitoring apparatus for use in monitoring a physiological fluid pressure in successive patients. Three embodiments of the pressure monitoring apparatus (10, 100, 200) are disclosed, each of which include a disposable portion ( 12, 12'"'"', 12") and a reusable portion ( 14, 14'"'"', 14"). Fluid flows through the disposable portion and into a cavity (48) that is covered with an elastomeric membrane (46, 46'"'"'). When the disposable portion is engaged with the reusable portion, the elastomeric membrane is in contact with a corresponding elastomeric membrane (50, 50'"'"'), which covers a pressure sensing cavity (52). A pressure transducer (56) is mounted in the pressure sensing cavity, and the pressure sensing cavity is filled with a fluid and is in fluid communication with a reservoir(38) when not engaged with the disposable portion. When the disposable portion is brought into engagement with the reusable portion, a passage (54, 53) connecting the reservoir with the pressure sensing cavity is blocked, thereby minimizing the volume of fluid within the pressure sensing cavity. In this way, the compliance of the pressure sensing portion is reduced, so that its frequency response is increased. In one embodiment of the pressure monitoring apparatus (100), a slider (110) is provided for covering the elastomeric membrane used on the disposable portion so that exposure of the elastomeric membrane to a fluid pressurized to a level in excess of the rated pressure for the membrane does not damage the membrane.
61 Citations
17 Claims
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1. A pressure monitor for monitoring fluid pressure in a line that is in fluid communication with a physiological fluid, comprising:
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a) a disposable portion that includes a first housing, said disposable portion further comprising; (i) a port adapted to couple to said line; (ii) a first cavity disposed in said first housing, in fluid communication with the port; and (iii) a first elastomeric membrane sealingly covering said first cavity; (b) a reusable portion that includes a second housing adapted to engage and couple with said first housing, said reusable portion comprising; (i) a second cavity disposed in said second housing; (ii) a second elastomeric membrane covering said second cavity and disposed to contact said first elastomeric membrane when the first housing is engaged with the second housing; and (iii) a reservoir disposed in said second housing, in fluid communication with said second cavity via a passage that connects the reservoir to the second cavity when the first housing is not engaged with the second housing, said reservoir, said passage, and said second cavity being filled with a substantially nonvolatile fluid; and (c) a pressure transducer disposed adjacent to said second cavity, for producing a signal indicative of the pressure of the fluid in the line when the first housing is engaged with the second housing, engagement of said first housing with said second housing interrupting the fluid communication through the passage between the reservoir and the second cavity to minimize the volume of the nonvolatile fluid that transmits pressure from the second membrane to the pressure transducer, so that a characteristic maximum frequency response of the pressure monitor is substantially higher than it would be if the fluid communication through the passage were not interrupted. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A disposable device for use in monitoring fluid pressure, comprising:
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(a) a housing having an inlet port adapted to couple to a source of a medicinal fluid, and an outlet port adapted to connect in fluid communication with a patient'"'"'s body; (b) a chamber formed in said housing, said chamber being in fluid communication with both the inlet port and the outlet port; (c) an elastomeric membrane that sealingly covers said chamber, defining a side of the chamber; and (d) a ridge formed on a surface of the housing, adjacent to the chamber and the elastomeric membrane, said ridge extending outwardly from the surface and thereby adapted to interrupt a fluid communication through a passage within a reusable pressure transducer when the disposable device is mated with the reusable pressure transducer for monitoring the pressure of the physiological fluid. - View Dependent Claims (10)
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11. A method for monitoring a physiological fluid pressure that enables a pressure transducer employed to monitor the physiological fluid pressure to be used in monitoring the physiological fluid pressure of other patients without cross contamination between patients, comprising the steps of:
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(a) administering a medicinal fluid to a patient through a disposable device that includes a pressure chamber covered by a first elastomeric diaphragm, said medicinal fluid flowing through the pressure chamber so that the first elastomeric diaphragm is exposed to medicinal fluid; (b) providing a reusable pressure monitoring device, said reusable pressure monitoring device including a second elastomeric diaphragm covering a cavity filled with a substantially nonvolatile fluid, said nonvolatile fluid being provided from a reservoir in the reusable pressure monitoring device and transmitting pressure from the second elastomeric membrane to a pressure transducer in the reusable pressure monitoring device; (c) coupling the disposable device to the reusable pressure monitoring device, so that the first elastomeric membrane contacts the second elastomeric membrane; and (d) interrupting fluid communication between the reservoir and the cavity when the disposable device is coupled to the reusable pressure monitoring device, to increase a frequency response of the reusable pressure monitoring device. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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Specification