Intravenous monitoring system utilizing a dynamic reference threshold

US 4,490,140 A
Filed: 07/30/1982
Issued: 12/25/1984
Est. Priority Date: 07/30/1982
Status: Expired due to Fees

First Claim

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1. An intravenous monitoring system for an intravenous feeding apparatus having a drip chamber through which the liquid to be administered to the patient passes, comprising:

a signal voltage generating means having an output terminal and adapted to be connected to the drip chamber which generates a detecting signal voltage in response to liquid passing through said drip chamber;

a comparator means having a first input connection coupled to said output terminal of said signal voltage generating means, a second input connection and a output connection which generates an output signal voltage when a signal voltage at one of the input connections exceeds the signal voltage at the other input connection;

a D.C. component reference circuit that generates a proportional dynamic reference threshold voltage, said D.C. component reference circuit comprises a signal voltage reduction means that is coupled between said second input connection of said comparator means and said output terminal of said signal voltage generating means, said signal voltage reduction means reduces said detecting signal voltage forming a reduced output signal voltage that is less than said proportional dynamic reference threshold voltage, said signal voltage reduction means comprises a first diode and a resistor that are coupled in parallel, and an RC circuit coupled between said signal voltage reduction means and said second input connecton and said second input connection of said comparator means, the resistor of said RC circuit forms a voltage divider with said resistor of said signal voltage reduction means thereby creating said proportional dynamic reference threshold voltage that varies the sensitivity of intravenous monitoring systems in response to changes in said detecting signal voltage, said RC circuit stores and emits a residual signal voltage, that is less than said dynamic reference threshold voltage, to said comparator means whenever said detecting signal voltage changes in response to liquid passing through the drip chamber, said proportional dynamic reference voltage exceeds said detecting signal voltage and said comparator means generates said output signal voltage in response thereto.

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Abstract

An intravenous monitoring system in which dynamic reference threshold circuitry is used to provide output signals indicating the presence of liquid passing through the drip chamber of an intravenous feeding apparatus. A light sensor that detects the presence of liquid passing through the drip chamber generates a detecting signal that is amplified and processed by the dynamic reference threshold circuitry. The dynamic reference threshold circuitry comprises a comparator circuit, and a D.C. component reference circuit that provides the reference threshold to the comparator circuit. The amplified detecting signal is directed both to an input of the comparator circuit and the D.C. component reference circuit. The D.C. component reference circuit uses a diode to produce a voltage drop in the amplified detecting signal and an RC circuit to both store and emit a residual signal when there is a sudden drop in the amplified detecting signal. A resistor is connected in parallel with the diode to provide a leakage path around the diode and thereby form a proportional reference threshold. Whenever the reference threshold exceeds the amplified detecting signal the comparator circuit generates an output signal indicating liquid passing through the drip chamber. If streaming occurs in the drip chamber an extending output signal by the comparator circuit will indicate this.

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15 Claims

1. An intravenous monitoring system for an intravenous feeding apparatus having a drip chamber through which the liquid to be administered to the patient passes, comprising:
- a signal voltage generating means having an output terminal and adapted to be connected to the drip chamber which generates a detecting signal voltage in response to liquid passing through said drip chamber;
  
  a comparator means having a first input connection coupled to said output terminal of said signal voltage generating means, a second input connection and a output connection which generates an output signal voltage when a signal voltage at one of the input connections exceeds the signal voltage at the other input connection;
  
  a D.C. component reference circuit that generates a proportional dynamic reference threshold voltage, said D.C. component reference circuit comprises a signal voltage reduction means that is coupled between said second input connection of said comparator means and said output terminal of said signal voltage generating means, said signal voltage reduction means reduces said detecting signal voltage forming a reduced output signal voltage that is less than said proportional dynamic reference threshold voltage, said signal voltage reduction means comprises a first diode and a resistor that are coupled in parallel, and an RC circuit coupled between said signal voltage reduction means and said second input connecton and said second input connection of said comparator means, the resistor of said RC circuit forms a voltage divider with said resistor of said signal voltage reduction means thereby creating said proportional dynamic reference threshold voltage that varies the sensitivity of intravenous monitoring systems in response to changes in said detecting signal voltage, said RC circuit stores and emits a residual signal voltage, that is less than said dynamic reference threshold voltage, to said comparator means whenever said detecting signal voltage changes in response to liquid passing through the drip chamber, said proportional dynamic reference voltage exceeds said detecting signal voltage and said comparator means generates said output signal voltage in response thereto.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. An intravenous monitoring system in accordance with claim 1 wherein said signal voltage generating means comprises a light source that passes light through said drip chamber and a light sensor detects the light after it passes through said drip chamber and therein produces said detecting signal voltage in response to liquid passing through said drip chamber.
  - 3. An intravenous monitoring system in accordance with claim 2 wherein said light sensor produces a negative voltage pulse when liquid passes between said light and said light sensor.
  - 4. An intravenous monitoring system in accordance with claim 3 further comprising an amplifier which is coupled between said signal voltage generating means and said output terminal of said signal voltage generating means, said amplifier amplifies said detecting signal voltage thus forming an amplifier detecting signal voltage.
  - 5. An intravenous monitoring system in accordance with claim 4 further comprising an indicator lamp which is coupled to said output connection of said comparator means and which lights up in response to said output signal voltage of said comparator means.
  - 6. An intravenous monitoring system in accordance with claim 4 further comprising a positive voltage source which is coupled to said RC circuit and provides a positive voltage thereto to increase the sensitivity of said monitoring system.
  - 7. An intravenous monitoring system in accordance with claim 4 further comprising a negative voltage source which is coupled to said RC circuit and provides a negative voltage thereto to decrease the sensitivity of said monitoring system.
  - 8. An intravenous monitoring system in accordance with claim 4 wherein said RC circuit is coupled to a second diode which is further connected to ground.
  - 9. An intravenous monitoring system in accordance with claim 6 wherein said first input connection of said comparator means is a non-inverting input and said second input connection of said comparator means is an inverting input.
  - 10. An intravenous monitoring system in accordance with claim 7 wherein said first input connection of said comparator means is a non-inverting input and said second input connection of said comparator means is an inverting input.
  - 11. An intravenous monitoring system in accordance with claim 2 wherein said light sensor produces a positive voltage pulse when liquid passes between said light and said light sensor.

12. An intravenous monitoring system for intravenous feeding apparatus having a drip chamber through which the liquid to be administered to the patient passes, comprising:
- an optical means adapted to be mounted in close proximity to said drip chamber which generates a detecting signal voltage in response to liquid passing through said drip chamber;
  
  an amplifier which receives and amplifies the detecting signal voltage produced from said optical means, said amplifier having an output terminal;
  
  a comparator means having a first input connection coupled to said output terminal of said amplifier, a second input connection and an output connection which generates an output signal voltage when a signal voltage at one of the input connections exceeds the signal voltage at the other input connection;
  
  a D.C. component reference circuit that generates a dynamic reference threshold voltage, said D.C. component reference circuit comprises a signal voltage reduction means that is coupled between said second input connection of said comparator means and said output terminal of said amplifier means, said signal voltage reduction means reduces said detecting signal voltage thus forming a reduced output signal voltage that is less than said dynamic reference threshold voltage, said signal voltage reduction means comprises a first diode and a resistor that are coupled in parallel, in an RC circuit coupled between said signal voltage reduction means and said second input connection of said comparator means, the resistor of said signal voltage reduction means, thereby creating said dynamic reference threshold that varies the sensitivity of the intravenous monitoring system in response to changes in said detecting signal voltage, wherein said RC circuit stores and emits a residual signal voltage, that is less than said dynamic reference threshold voltage, to said comparator means whenever said detecting signal voltage changes in response to liquid passing through the drip chamber whereby when said detecting signal voltage changes in response to liquid passing through the drip chamber, said dynamic reference threshold voltage exceeds said detecting signal voltage and said comparator means generates said output signal voltage in response thereto.

13. An intravenous monitoring system for an intravenous feeding apparatus having a drip chamber through which the liquid to be administered to the patient passes, comprising:
- a signal voltage generating means which is a light source and a light sensor wherein an interrupted light beam produces a negative electrical voltage from the light sensor;
  
  a signal amplifier which receives the negative electrical voltage from the light sensor and amplifies it before transmitting the amplified signal voltage to the D.C. component reference circuit means;
  
  a D.C. component reference circuit means which proportionally separates the signal voltage received from the amplifier by means of a voltage divider comprised of a diode with a resistor connected in parallel and the resistance portion of an RC circuit, said separated signal voltages being a reduced output signal voltage and a reference signal voltage; and
  
  a comparator means having a first input connection coupled to the output of said signal voltage amplifier and a second input connection connected to said D.C. component reference circuit means and an output connection through which is generated an output signal voltage when the output voltage of the D.C. component reference circuit means exceeds the signal voltage received from said signal voltage amplifier.
- View Dependent Claims (14, 15)
- - 14. The intravenous monitoring system of claim 13 wherein the light source is a light emitting diode.
  - 15. The intravenous monitoring system of claim 13 wherein the light sensor is a phototransistor.

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Current Assignee
Abbott Laboratories Incorporated
Original Assignee
Abbott Laboratories Incorporated
Inventors
Finch, Dale E., Carr, Travis C.
Primary Examiner(s)
Howell, Kyle L.
Assistant Examiner(s)
Falk, Steven

Application Number

US06/403,382
Time in Patent Office

879 Days
Field of Search

128/DIG. 13, 128/DIG. 12, 604/67, 604/151, 604/153, 604/65, 604/31, 604/251, 315/382, 307/562, 73/861.41
US Class Current

604/65
CPC Class Codes

A61M 5/1689 Drip counters

Y10S 128/13 Infusion monitoring

Intravenous monitoring system utilizing a dynamic reference threshold

First Claim

1 Assignment

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Abstract

59 Citations

15 Claims

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Intravenous monitoring system utilizing a dynamic reference threshold

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

59 Citations

15 Claims

Specification

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Use Cases

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Others