Dialysis machine which anticipates concentration changes

US 4,718,022 A
Filed: 02/21/1985
Issued: 01/05/1988
Est. Priority Date: 02/21/1985
Status: Expired due to Fees

First Claim

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1. In a dialysis machine for supplying dialysate to an artificial kidney at a selected flow rate, comprising:

water supply means for supplying water at a water flow rate related to the selected flow rate;

concentrate supply means for supplying dialysate concentrate at a rate proportional to a concentrate flow rate signal;

mixing means for supplying the dialysate to the artificial kidney by mixing the water supplied by the water supply means with the concentrate supplied by the concentrate supply means;

dialysate conductivity sensing means for providing a dialysate conductivity signal having a value proportional to the conductivity of the dialysate supplied to the artificial kidney by the mixing means; and

concentrate flow rate control means for providing the concentrate flow rate signal to the concentrate supply means in proportion to a concentrate flow rate control signal the value of the concentrate flow rate control signal being selectively varied in response to changes in the value of the dialysate conductivity signal;

the improvement comprising;

concentrate conductivity sensing means for providing a concentrate conductivity signal having a value proportional to the conductivity of the concentrate supplied by the concentrate supply means; and

conductivity compensation means for selectively varying the value of the dialysate conductivity signal provided to the concentrate flow rate control means by the dialysate conductivity sensing means in proportion to the value of the concentrate conductivity signal.

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Abstract

A dialysis machine has control circuit which detects changes in input water temperature and compensates the water heater. The control circuit detects changes in the conductivity of the dialysate concentrate and compensates the concentrate pump. Changes in supply voltage are detected and the outputs of the several sensors and the inputs to the pumps and heater compensated. The control circuit periodically calibrates the blood leak detector. In each of the feedback loops which service the heater and each of the pumps, the control circuit varies both the loop response time and the loop gain to compensate for changes in the dialysate flow rate. The resolution of the D/A converters which drive the pumps are enhanced by the control circuit by time modulating the LSB of the respective digital drive value. If any of the several sensed operating conditions varies significantly from the expected value, the control circuit terminates dialysis.

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16 Claims

1. In a dialysis machine for supplying dialysate to an artificial kidney at a selected flow rate, comprising:
- water supply means for supplying water at a water flow rate related to the selected flow rate;
  
  concentrate supply means for supplying dialysate concentrate at a rate proportional to a concentrate flow rate signal;
  
  mixing means for supplying the dialysate to the artificial kidney by mixing the water supplied by the water supply means with the concentrate supplied by the concentrate supply means;
  
  dialysate conductivity sensing means for providing a dialysate conductivity signal having a value proportional to the conductivity of the dialysate supplied to the artificial kidney by the mixing means; and
  
  concentrate flow rate control means for providing the concentrate flow rate signal to the concentrate supply means in proportion to a concentrate flow rate control signal the value of the concentrate flow rate control signal being selectively varied in response to changes in the value of the dialysate conductivity signal;
  
  the improvement comprising;
  
  concentrate conductivity sensing means for providing a concentrate conductivity signal having a value proportional to the conductivity of the concentrate supplied by the concentrate supply means; and
  
  conductivity compensation means for selectively varying the value of the dialysate conductivity signal provided to the concentrate flow rate control means by the dialysate conductivity sensing means in proportion to the value of the concentrate conductivity signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 2. The dialysis machine of claim 1 further comprising:
    - dialysate temperature sensing means for providing a dialysate temperature signal having a value proportional to the temperature of the dialysate supplied by the mixing means to the artificial kidney; and
      
      dialysate temperature compensation means for selectively varying the value of the dialysate conductivity signal provided to the concentrate flowrate control means by the dialysate conductivity sensing means in proportion to the value of the dialysate temperature signal.
  - 3. The dialysis machine of claim 2 further comprising:
    - concentrate temperature sensing means for providing a concentrate temperature signal having a value proportional to the temperature of the concentrate supplied to the mixing means by the concentrate supply means; and
      
      concentrate temperature compensation means for selectively varying the value of the concentrate conductivity signal provided to the conductivity compensation means by the concentrate conductivity sensing means in proportion to the value of the concentrate temperature signal.
  - 4. The dialysis machine of claim 3 further comprising:
    - concentrate ratio control means for varying by a predetermined ratio the value of the concentrate conductivity signal provided to the conductivity compensation means by the concentrate conductivity sensing means.
  - 5. The dialysis machine of claim 4 wherein the values of the dialysate conductivity signal and the concentrate conductivity signal are related to the value of a supply voltage, the dialysis machine further comprising:
    - supply voltage sensing means for providing a voltage reference signal having a value proportional to the value of the supply voltage; and
      
      voltage compensation means for selectively varying the values of the dialysate conductivity signal and the concentrate conductivity signal in proportion to changes in the voltage reference signal.
  - 6. The dialysis machine of claim 5 further comprising:
    - performance estimating means for estimating the conductivity of the dialysate based upon the water flow rate and the concentrate flow rate;
      
      performance measuring means for measuring the conductivity of the dialysate based upon the value of the dialysate conductivity signal; and
      
      performance verification means for preventing the dialysis machine from supplying dialysate to the artificial kidney if the estimated conductivity differs significantly from the measured conductivity.
  - 7. The dialysis machine of claim 1 further comprising:
    - concentrate temperature sensing means for providing a concentrate temperature signal having a value proportional to the temperature of the concentrate supplied to the mixing means by the concentrate supply means; and
      
      concentrate temperature compensation means for selectively varying the value of the concentrate conductivity signal provided to the conductivity compensation means by the concentrate conductivity sensing means in proportion to the value of the concentrate temperature signal.
  - 8. The dialysis machine of claim 7 further comprising:
    - concentrate ratio control means for varying by a predetermined ratio the value of the concentrate conductivity signal provided to the conductivity compensation means by the concentrate conductivity sensing means.
  - 9. The dialysis machine of claim 8 wherein the values of the dialysate conductivity signal and the concentrate conductivity signal are related to the value of a supply voltage, the dialysis machine further comprising:
    - supply voltage sensing means for providing a voltage reference signal having a value proportional to the value of the supply voltage; and
      
      voltage compensation means for selectively varying the values of the dialysate conductivity signal and the concentrate conductivity signal in proportion to changes in the voltage reference signal.
  - 10. The dialysis machine of claim 9 further comprising:
    - performance estimating means for estimating the conductivity of the dialysate based upon the water flow rate and the concentrate flow rate;
      
      performance measuring means for measuring the conductivity of the dialysate based upon the value of the dialysate conductivity signal; and
      
      performance verification means for preventing the dialysis machine from supplying dialysate to the artificial kidney if the estimated conductivity differs significantly from the measured conductivity.
  - 11. The dialysis machine of claim 1 further comprising:
    - concentrate ratio control means for varying by a predetermined ratio the value of the concentrate conductivity signal provided to the conductivity compensation means by the concentrate conductivity sensing means.
  - 12. The dialysis machine of claim 11 wherein the values of the dialysate conductivity signal and the concentrate conductivity signal are related to the value of a supply voltage, the dialysis machine further comprising:
    - supply voltage sensing means for providing a voltage reference signal having a value proportional to the value of the supply voltage; and
      
      voltage compensation means for selectively varying the values of the dialysate conductivity signal and the concentrate conductivity signal in proportion to changes in the voltage reference signal.
  - 13. The dialysis machine of claim 12 further comprising:
    - performance estimating means for estimating the conductivity of the dialysate based upon the water flow rate and the concentrate flow rate;
      
      performance measuring means for measuring the conductivity of the dialysate based upon the value of the dialysate conductivity signal; and
      
      performance verification means for preventing the dialysis machine from supplying dialysate to the artificial kidney if the estimated conductivity differs significantly from the measured conductivity.
  - 14. The dialysis machine of claim 1 wherein the values of the dialysate conductivity signal and the concentrate conductivity signal are related to the value of a supply voltage, the dialysis machine further comprising:
    - supply voltage sensing means for providing a voltage reference signal having a value proportional to the value of the supply voltage; and
      
      voltage compensation means for selectively varying the values of the dialysate conductivity signal and the concentrate conductivity signal in proportion to changes in the voltage reference signal.
  - 15. The dialysis machine of claim 14 further comprising:
    - performance estimating means for estimating the conductivity of the dialysate based upon the water flow rate and the concentrate flow rate;
      
      performance measuring means for measuring the conductivity of the dialysate based upon the value of the dialysate conductivity signal; and
      
      performance verification means for preventing the dialysis machine from supplying dialysate to the artificial kidney if the estimated conductivity differs significantly from the measured conductivity.
  - 16. The dialysis machine of claim 1 further comprising:
    - performance estimating means for estimating the conductivity of the dialysate based upon the water flow rate and the concentrate flow rate;
      
      performance measuring means for measuring the conductivity of the dialysate based upon the value of the dialysate conductivity signal; and
      
      performance verification means for preventing the dialysis machine from supplying dialysate to the artificial kidney if the estimated conductivity differs significantly from the measured conductivity.

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Current Assignee
Michael J. Cochran
Original Assignee
Michael J. Cochran
Inventors
Cochran, Michael J.
Primary Examiner(s)
Gruber, Felix D.
Assistant Examiner(s)
Teska, Kevin J.

Application Number

US06/704,053
Time in Patent Office

1,048 Days
Field of Search

364/510, 364/550, 364/557, 364/558, 364/571, 364/483, 210/96.2, 210/135, 210/137, 210/197, 210/321.2, 210/321.3, 128/630, 128/DIG. 13, 324/442, 324/445, 73/600
US Class Current

210/321.71
CPC Class Codes

A61M 1/1656   Apparatus for preparing dia...

A61M 1/166   Heating for sterilisation A...

A61M 1/1664   with temperature control

Dialysis machine which anticipates concentration changes

First Claim

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Abstract

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16 Claims

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Dialysis machine which anticipates concentration changes

First Claim

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Abstract

Citations

16 Claims

Specification

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Solutions

Use Cases

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