Physiological pressure measuring system
First Claim
1. A physiological pressure measuring system comprising:
- (A) an intravascular infusion set having a line carrying fluid to a patient whose pressure is to be monitored;
(B) a detector having a transparent chamber interposed in the line whereby the fluid carried to the patient flows through the chamber, and a flexible bulb mounted in the chamber, the exterior of the bulb being subjected to the pressure of the fluid in the chamber, the interior of the bulb communicating with a flexible pipe terminating in a hollow detector plug initially vented to the atmosphere whereby the bulb is collapsed when the chamber fluid pressure is greater than atmospheric;
(C) a transducer producing an analog signal as a function of applied pressure; and
(D) an input port coupled to said transducer to apply pressure thereto, said input port being defined by a tubular transducer jack adapted to telescopically receive and seal from the atmosphere said hollow detector plug which is axially advanceable into said transducer jack such that when a pressure reading is to be taken, an operator then inserts and axially advances the detector plug into said transducer jack to create in said pipe an air column whose effective length is determined by the length of the pipe and the variable length of the telescoping plug and jack and which is closed by the collapsed bulb to entrap the air therein, the effective length of the air column therefore depending on the axial position of the detector plug so that as the detector plug is advanced by the operator into the transducer jack to shorten the column, the entrapped air then is compressed to exert a pressure on the transducer, the parameters of the pipe and the telescoping plug and jack relative to the full range of pressures encountered in patients being such that a point is reached in the course of said advance where the air pressure in the column matches the pressure of fluid in the chamber, beyond which point further advance of the detector plug results in partial dilation of the collapsed bulb to relieve any increase in the column air pressure whereby the matching column pressure sensed by the transducer is maintained to provide the desired pressure reading.
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Accused Products
Abstract
A physiological pressure measuring system usable in conjunction with an intravascular infusion line leading to a patient whose pressure is to be monitored. The system includes a detector having a transparent chamber interposed in the line and a flexible bulb mounted therein whose exterior is subjected to the fluid pressure in the chamber, the bulb interior communicating with a flexible pipe terminating in a hollow plug vented to the atmosphere whereby the bulb is caused to collapse when the infusion fluid pressure which reflects the physiologial pressure is greater than atmospheric. Associated with the detector is a fluid pressure transducer yielding a signal as a function of the applied pressure, the transducer input port being in the form of a tubular jack adapted to telescopically receive the plug. When the plug is inserted in the jack, a seal is effected to create a closed air column which exerts pressure on the transducer. The effective length of the column depends on the relative axial position of the plug; and as the plug is advanced into the jack, the column is shortened to thereby compress the air entrapped therein. A point is reached in the course of advance when the column pressure matches the chamber fluid pressure, limited further advance resulting only in dilation of the bulb without any change in column pressure. The transducer senses the matching column pressure to provide the desired physiological pressure reading.
69 Citations
6 Claims
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1. A physiological pressure measuring system comprising:
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(A) an intravascular infusion set having a line carrying fluid to a patient whose pressure is to be monitored; (B) a detector having a transparent chamber interposed in the line whereby the fluid carried to the patient flows through the chamber, and a flexible bulb mounted in the chamber, the exterior of the bulb being subjected to the pressure of the fluid in the chamber, the interior of the bulb communicating with a flexible pipe terminating in a hollow detector plug initially vented to the atmosphere whereby the bulb is collapsed when the chamber fluid pressure is greater than atmospheric; (C) a transducer producing an analog signal as a function of applied pressure; and (D) an input port coupled to said transducer to apply pressure thereto, said input port being defined by a tubular transducer jack adapted to telescopically receive and seal from the atmosphere said hollow detector plug which is axially advanceable into said transducer jack such that when a pressure reading is to be taken, an operator then inserts and axially advances the detector plug into said transducer jack to create in said pipe an air column whose effective length is determined by the length of the pipe and the variable length of the telescoping plug and jack and which is closed by the collapsed bulb to entrap the air therein, the effective length of the air column therefore depending on the axial position of the detector plug so that as the detector plug is advanced by the operator into the transducer jack to shorten the column, the entrapped air then is compressed to exert a pressure on the transducer, the parameters of the pipe and the telescoping plug and jack relative to the full range of pressures encountered in patients being such that a point is reached in the course of said advance where the air pressure in the column matches the pressure of fluid in the chamber, beyond which point further advance of the detector plug results in partial dilation of the collapsed bulb to relieve any increase in the column air pressure whereby the matching column pressure sensed by the transducer is maintained to provide the desired pressure reading. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification